梁锋

个人信息Personal Information

教授 博士生导师

性别:男

毕业院校:武汉大学

学历:博士研究生毕业

学位:工学博士学位

在职信息:在职人员

所在单位:物理学院

学科:无线电物理

办公地点:四川成都高新西区西源大道2006号电子科技大学清水河校区物理学院楼443办公室

曾获荣誉:2012年湖北省优秀博士学位论文;2006年四川省优秀大学毕业生

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  • 无线电物理、电磁场与微波技术


    研究方向

    一、新体制低成本毫米波相控阵天线 / 可重构智能天线

    相控阵天线在下一代无线通信系统中具有重要的应用价值,但高昂的成本、笨重的体积限制了传统相控阵天线的应用场景。针对未来万物互联及人工智能的发展需求,亟需发展低成本、低功耗、轻量化的相控阵天线和具有自适应能力的可重构智能天线。液晶具有介电常数随偏置电压连续可调的特性,且介电损耗随微波频率升高而降低,具有优异的高频适用性。因此,基于液晶加载的可重构智能表面或相控阵天线是实现低成本、低功耗、轻量化毫米波相控阵天线或可重构智能天线的极具潜力的方案。

    课题组自2017年起在四川省科技计划、广东省重点领域研发计划、国家自然科学基金等项目支持下,对微波毫米波液晶超表面天线及相控阵天线进行了研究,完成了微波毫米波频段液晶材料介电特性测试、基于玻璃封装的液晶超表面及液晶相控阵天线的设计和加工、液晶天线测试验证等方面的积累,培养了多名该方向的研究生。


    二、基于人工电磁结构的抗散射拓扑电磁波传输与调控

    下一代通信技术对信息处理速度及数据传输速率的要求显著提高,为了满足Tbps级高数据率的应用需求,毫米波、太赫兹及光混合通信技术将成为6G通信的关键技术。对于高频电磁波(特别是太赫兹波及光波),在传统的电磁波传输原理框架下,传输路径上的不连续结构对电磁波的传输效率影响较大,比如路径拐弯、结构或材料突变、制备误差引起的缺陷、杂质等都会引起严重的散射损耗,从而制约了电磁波的高效传输。借鉴于凝聚态物理领域近年发展起来的拓扑绝缘体具有的拓扑保护电子散射免疫特性,可从物理源头上探索新型电磁波的散射免疫或抗散射机制,于是便产生了电磁(含光)拓扑绝缘体和电磁拓扑边界态的研究方向。结合实际应用场景,利用基于简单材料构筑的人工功能基元+空间序构实现具有散射免疫特性的高效电磁波传输及动态调控的研究,具有重要的创新价值和广泛的应用前景,对于发展新型的高数据率信息处理和传输器件具有重要的理论和工程应用价值。

    2019年起,课题组开展了基于人工电磁结构的电磁拓扑绝缘体、抗散射拓扑边界态传输与调控的研究,并取得了一系列的成果。

     



     

     

  •  期刊论文(标*为通讯作者)

    2024年

    Zi-Han Cheng, Feng Liang, Deshuang Zhao*, and Bing-Zhong Wang, "Localization of the radiated-PIM source based on the truncated time reversal operator-MUSIC imaging: An experimental validation," IEEE Antennas and Wireless Propagation Letters, vol. xx, pp. xx-xx, 2024 (in press). (中科院期刊分区2区,Top期刊)

    Jianfei Han, Feng Liang*, Daosheng Huang, Yulin Zhao, Jiale Liu, Deshuang Zhao, Bing-Zhong Wang, "Topological traveling-wave radiation based on chiral edge states in photonic Chern insulators,Optics Letters, vol. 49, no. 21, pp. 6233-6236, November 2024. (中科院期刊分区2区,Top期刊)

    Daosheng Huang, Feng Liang*, Xiangru Wang, and Bing-Zhong Wang, "A millimeter wave dual-band antenna based on microstrip dual-Loop and patch," IEEE Antennas and Wireless Propagation Letters, vol. 23, no. 10,  pp. 2825-2829, October 2024. (中科院期刊分区2区,Top期刊,该论文入选2024年10月IEEE AWPL 热点论文(Popular Articles)

    Jin Liu, Feng Liang*, Yu Wang, Xu Ni, Xiangru Wang, Deshuang Zhao, and Bing-Zhong Wang, "Circularly polarized high-gain K-band liquid crystal phased array antenna," IEEE Transactions on Antennas and Propagation vol. 72, no. 9, pp. 7341-7346, September 2024. (中科院期刊分区1区,Top期刊,该论文入选2024年9月IEEE TAP 热点论文(Popular Articles))

    Qianying Yan, Yanwei Huang, Wenzhao Zhang, Xin Hou, Mengqing Zhang, Xiangru Wang*, and Feng Liang, "A fast phase calibration method for a liquid crystal microwave phased array antenna assisted by neural network," International Journal of Microwave and Wireless Technologies,  1-10, 2024, https://doi.org/10.1017/S175907872400014X 

    Jianfei Han, Feng Liang*, Yulin Zhao, Xiangru Wang, Deshuang Zhao, and Bing-Zhong Wang, "Reconfigurable topological wave routing based on tunable valley kink states and valley-polarized chiral edge states," Optics Express, vol. 32, no. 15, pp. 26819-26832, 2024. (中科院期刊分区2区,Top期刊)

    Jianfei Han, Feng Liang*, Yulin Zhao, Xiao Ding, Xiangru Wang*, Deshuang Zhao, and Bing-Zhong Wang, "Highly efficient conversion from classical guided waves to topological chiral edge states," Chinese Optics Letters, vol. 22, no. 2, 023902, 2024. 入选Editor's Pick (编辑精,链接 https://www.researching.cn/articles/OJ520e6f081f7f06d2   】 (中科院期刊分区2区)

    Jianfei Han, Feng Liang*, Yulin Zhao, Jiale Liu, Sichun Wang, Xiangru Wang, Deshuang Zhao, and Bing-Zhong Wang, “Valley kink states and valley-polarized chiral edge states in substrate-integrated topological photonic crystals,” Physical Review Applied, vol. 21, 014046, 2024. (中科院期刊分区2区,Top期刊)

    Zi-Han Cheng, Meng-Lu Ma, Feng Liang, Deshuang Zhao*, and Bing-Zhong Wang, "Low complexity time reversal imaging methods based on truncated time reversal operator," IEEE Transactions on Geoscience and Remote Sensing, vol. 62, 2001014, 2024. (中科院期刊分区1区)


    2023年

    Zi-Han Cheng, Xin-Jie Li, Si-Yuan Liu, Feng Liang, Deshuang Zhao*, and Bing-Zhong Wang, "Cascaded time reversal-MUSIC approach for accurate location of passive intermodulation sources activated by antenna array," IEEE Transactions on Antennas and Propagation vol. 71, no. 11, pp. 8841-8853, November 2023. (中科院期刊分区1区,Top期刊)

    Yulin Zhao, Feng Liang*, Jianfei Han, Deshuang Zhao, and Bing-Zhong Wang, "Extended terahertz valley-locked surface waves in designer surface plasmon crystals,Journal of Physics D: Applied Physics, vol. 56, no. 18, p. 185101, 2023. (中科院期刊分区3区)

    Siyuan Liu, Musheng Liang, Zihan Cheng, Xinjie Li, Menglu Ma, Feng Liang, and Deshuang Zhao*, "Electromagnetic imaging of passive intermodulation sources based on virtual array expansion synchronous imaging compressed sensing," Electronics, vol. 12, no. 7, p. 1653, 2023. (中科院期刊分区3区)

    Xiaoxian He, Xiangru Wang*, Yulin Zhao, Rusheng Zhuo, Feng Liang, "Field programmable topological edge array," Photonics Research, vol. 11. no. 3, p. 476, 2023.  (中科院期刊分区1区,Top期刊)


    2022年

    Zi-Han Cheng, Tao Li, Lin Hu, Xin Ma, Feng Liang*, Deshuang Zhao*, and Bing-Zhong Wang, "Selectively powering multiple small-size devices spaced at diffraction limited distance with point-focused electromagnetic waves," IEEE Transactions on Industrial Electronics, vol. 69, no. 12, pp. 13696-13705, December 2022.  (中科院期刊分区1区,Top期刊)

    Yulin Zhao, Feng Liang*, Jianfei Han, Xiangru Wang, Deshuang Zhao, and Bing-Zhong Wang, "Tunable topological edge and corner states in an all-dielectric photonic crystal," Optics Express, vol. 30, no. 22, pp. 40515-40530, October 2022. (中科院期刊分区2区)

    Yulin Zhao, Feng Liang*, Xiangru Wang, Deshuang Zhao, and Bing-Zhong Wang, "Tunable and programmable topological valley transport in photonic crystals with liquid crystals," Journal of Physics D: Applied Physics, vol. 55, no. 15, 155102, April 2022. (Author correction: Yulin Zhao et al 2023 J. Phys. D: Appl. Phys. 56 359501(中科院期刊分区3区)

         

    2021年

    Zhengwei Chen, Feng Liang*, Qiaoli Zhang, Bing Li, Guangding Ge, Deshuang Zhao*, "Synthesis method for 1-D uniform microwave field generation based on Fourier transform and time reversal,"  IEEE Transactions on Antennas and Propagation, vol. 69, no. 10, pp. 7011-7016,  October 2021. (中科院期刊分区2区,Top期刊)

              

    2019年

    Zhen-Zhong Yang, Feng Liang*, Yu Yi, Deshuang Zhao, and Bing-Zhong Wang, "Metasurface-based wideband, low-profile, and high gain antenna," IET Microwaves, Antennas & Propagation, vol. 13, no. 4, pp. 436-441, March 2019.


    2018年

    Feng Liang*, Zhen-Zhong Yang, Yu-Xi Xie, Hao Li, Deshuang Zhao, and Bing-Zhong Wang, "Beam-scanning microstrip quasi-Yagi-Uda antenna based on hybrid metal-graphene materials," IEEE Photonics Technology Letters, vol. 30, no. 12, pp. 1127-1130, June 2018.


    2017

    Wen-Sheng Zhao, Jie Zheng, Jing Wang, Feng Liang, Fei Wen, Linxi Dong, Dingwen Wang, and Gaofeng Wang*, "Modeling and characterization of coaxial through-silicon via with electrically floating inner silicon," IEEE Transactions on Componennts, Packaging and Manufacturing Technology, vol. 7, no. 6, pp. 936-943, June 2017.


    2016年

    Aobo Chen, Feng Liang*, Bing-Zhong Wang, Wen-Sheng Zhao, and Gaofeng Wang, "Conduction mode analysis and impedance extraction of shielded pair transmission lines," IEEE Microwave and Wireless Components Letters, vol. 26, no. 9, pp. 654-656, September 2016.

    Wen-Sheng Zhao, Jie Zheng, Linxi Dong, Feng Liang, Yue hu, Luwen Wang, Gaofeng Wang*, and Qifa Zhou, "High frequency modeling of on-chip coupled carbon nanotube interconnects for millimeter-wave applications", IEEE Transactions on Componennts, Packaging and Manufacturing Technology, vol. 6, no. 8, pp.1226-1232, August 2016.

    Wen-Sheng Zhao, Jie Zheng, Feng Liang, Kuiwen Xu, Xi Chen, and Gaofeng Wang*, “Wideband modeling and characterization of differential through-silicon vias for 3-D ICs,” IEEE Transactions on Electron Devices, vol. 63, no. 3, pp. 1168-1175, March 2016.

    Feng Liang, George W. Hanson*, Alexander B. Yakovlev, Giampiero Lovat, Paolo Burghignoli, Rodolfo Araneo, and Seyyed A. Hassani Gangaraj, “Dyadic Green's functions for dipole excitation of homogenized metasurfaces,” IEEE Transactions on Antennas and Propagation, vol. 64, no. 4, pp. 167-178, January 2016.


    2015

    Aobo Chen, Feng Liang*, Gaofeng Wang, and Bing-Zhong Wang, "Closed-form impedance model for annular through-silicon via pairs in three-dimensional integration," IET Microwaves, Antennas & Propagation, vol. 9, no. 8, pp. 808-813, June 2015.

    Feng Liang*, Alexander B. Yakovlev, and George W. Hanson, "Optimum surface plasmon excitation and propagation on conductive two-dimensional materials and thin films," IEEE Transactions on Antennas and Propagation, vol. 63, no. 4, pp. 1765-1774, April 2015.


    2014年

    Feng Liang*, Aobo Chen, Deshuang Zhao, and Bing-Zhong Wang, “ADE-WCS-FDTD method for general dispersive materials and PML implementation,” Microwave and Optical Technology Letters, vol. 56, no. 11, pp. 2489-2495, November 2014.

    Deshuang Zhao*, Litao Lan, Yifei Han, Feng Liang, Qiaoli Zhang, and Bing-Zhong Wang, “Optically controlled reconfigurable band-notched UWB antenna for cognitive radio applications,” IEEE Photonics Technology Letters, vol. 26, no. 21, pp. 2173-2176, November 2014.

    Deshuang Zhao*, Yifei Han, Feng Liang, Qiaoli Zhang, and Bing-Zhong Wang, “Low-power optically controlled patch antenna of reconfigurable beams,” International Journal of Antennas and Propagation, vol. 2014, p. 978258, 2014.


    2013年

    Feng Liang*, Gaofeng Wang*, Deshuang Zhao, and Bing-Zhong Wang, “Wideband impedance model for coaxial through-silicon vias in 3-D integration,”  IEEE Transactions on Electron Devices, vol. 60, no. 8, pp. 2498-2504, August 2013.

    Feng Liang, Gaofeng Wang*, Rui Wang, Dong Guo, Deshuang Zhao, and Bing-Zhong Wang, “A novel PLRC-WCS FDTD method for dispersive materials,” Journal of Electromagnetic Waves and Applications, vol. 27, no. 4, pp. 464-472, 2013.

    Wen Ding, Gaofeng Wang*, Feng Liang, and Bo Yuan, “An enhanced gap source model,” IEEE Transactions on Antennas and Propagation, vol. 61, no. 3, pp. 1266-1272, March 2013.

    Litao Lan, Deshuang Zhao*, Feng Liang, Qiaoli Zhang, and Bing-Zhong Wang, “Influence of laser wavelength on insertion loss of silicon-based optically controlled microwave switch,” Microwave and Optical Technology Letters, vol. 55, no. 1, pp. 187-190, January 2013.


    2012年

    Feng Liang, Gaofeng Wang*, and Hai Lin, “Modeling of crosstalk effects in multiwall carbon nanotube interconnects,” IEEE Transactions on Electromagnetic Compatibility, vol. 54, no. 1, pp. 133-139, February 2012.


    2011年

    Feng Liang, Gaofeng Wang*, and Wen Ding, “Estimation of time delay and repeater insertion in multiwall carbon nanotube interconnects,” IEEE Transactions on Electron Devices, vol. 58, no. 8, pp. 2712-2720, August 2011.

    Feng Liang, Gaofeng Wang*, Hai Lin, and Bing-Zhong Wang, “Numerical dispersion improved three-dimensional locally one-dimensional finite-difference time-domain method,” IET Microwaves, Antennas & Propagation, vol. 5, no. 10, pp. 1256-1263, July 2011.

    Feng Liang, Gaofeng Wang*, and Hai Lin, “Modelling of self-heating effects in multi-wall carbon nanotube interconnects,” Micro & Nano Letters, vol. 6, no. 1, pp. 52-54, January 2011.


    2010年

    Feng Liang, Gaofeng Wang*, Hai Lin, and Bing-Zhong Wang, “Mur absorbing boundary condition for three-step 3-D LOD-FDTD method,” IEEE Microwave and Wireless Components Letters, vol. 20, no. 11, pp. 589-591, November 2010.


    2009年

    Hai Lin, Gaofeng Wang*, and Feng Liang, “A novel unconditionally stable PSTD method based on weighted laguerre polynomial expansion,” Journal of Electromagnetic Waves and Applications, vol. 23, pp. 1011-1020, 2009.

    Feng Liang, Hai Lin, and Gaofeng Wang*, “An unconditionally stable wave equation PML algorithm for truncating FDTD simulation,” Microwave and Optical Technology Letters, vol. 51, no. 4, pp. 1028-1032, April 2009.

    Hai Lin, Gaofeng Wang*, and Feng Liang, “An unconditionally stable FDTD method based on wave equation,” Microwave and Optical Technology Letters, vol. 51, no. 2, pp. 529-532, February 2009.



    2008年

    Feng Liang and Gaofeng Wang*, “Fourth-order locally one-dimensional FDTD method,” Journal of Electromagnetic Waves and Applications, vol. 22, pp. 2035-2043, 2008.

    Feng Liang, Gaofeng Wang*, and Wen Ding, “Low numerical dispersion locally one-dimensional FDTD method based on compact higher-order scheme,” Microwave and Optical Technology Letters, vol. 50, no. 11, pp. 2783-2787, November 2008.

     

       

    会议论文(标*为通讯作者)

    Ling Gan, Feng Liang*, Yong-Guang Liang, and Bing-Zhong Wang, "Equivalent circuit of low-thickness liquid crystal phase shifter with slow wave structure," 2024 Intercnational Conference on Microwave and Millimeter Wave Technology (ICMMT 2024), Beijing, China, May 16-19, 2024.

    Jin Liu, Feng Liang*, Xiangru Wang, Sichun Wang, and Bing-Zhong Wang, "A 1-bit 2D holographic liquid crystal metasurface antenna based on SIW," 2024 Intercnational Conference on Microwave and Millimeter Wave Technology (ICMMT 2024), Beijing, China, May 16-19, 2024.

    Yong-Guang Liang, Feng Liang*, and Bing-Zhong Wang, "Dynamic wireless power transfer using 3-bit liquid crystal reflectarray," 2024 Intercnational Conference on Microwave and Millimeter Wave Technology (ICMMT 2024), Beijing, China, May 16-19, 2024.

    柳进,梁锋*,“基于玻璃基板的1比特全息超表面的空间采样条件”,2023年全国天线年会,中国哈尔滨,8月20-23日,2023年.

    兰信儒,梁锋*,汪相如,赵德双,王秉中,“基于液晶的二维微带全息超表面漏波天线”,2023年全国微波毫米波会议,中国青岛,5月14-17日,2023年.

    Jianfei Han, Feng Liang*, Yulin Zhao, and Bing-Zhong Wang, "High-efficiency topological waveguides in substrate-integrated valley photonic crystals," 2023 Intercnational Conference on Microwave and Millimeter Wave Technology (ICMMT 2023), Qingdao, China, May 14-17, 2023.

    Jiale Liu, Feng Liang*, Bing-Zhong Wang, "2-D Beam Scanning Broadband Reflectarray Antenna With Low Thickness of Liquid Crystal," 2022 IEEE Conference on Antenna Measurements and Applications (CAMA), Guangzhou, China, December 14-17, 2022.

    Yulin Zhao, Feng Liang*, Jianfei Han, Deshuang Zhao, and Bing-Zhong Wang, "Terahertz topological edge states and corner states in metallic photonic crystal," 2022 Intercnational Conference on Microwave and Millimeter Wave Technology (ICMMT 2022), Harbin, China, August 12-15, 2022.

    梁书大,梁锋*,汪相如,赵德双,王秉中,“基于液晶的Ka波段透射相控阵天线设计”2022年全国微波毫米波会议,中国哈尔滨,8月12-15日,2022年.

    Yulin Zhao and Feng Liang*, "Terahertz Valley Transport in Photonic Crystal Slab" 2021 IEEE International Symposium on Antennas and Propagation and USNC-URSI Radio Science Meeting  (AP-S/URSI 2021), Marina Bay Sands, Singapore, December 4-10, 2021.

    王瑀,梁锋*,王一梵,汪相如,王秉中,“基于液晶移相技术的低成本平面相控阵天线设计”,2021年全国微波毫米波会议,中国南京,5月23-26日,2021年. (获优秀学生论文奖)

    谭玉彬,梁锋*,易宇,张龙,“单端反激式平面变压器设计”,2020年全国微波毫米波会议,中国上海,9月20-23日,2020年.

    刘琦梁锋*汪相如赵怿哲, "基于液晶的定频波束扫描全息超表面漏波天线" 2019年全国微波毫米波会议, 中国广州, 5月19-22日, 2019年.

    Zhen-Zhong Yang* and Feng Liang, "Broadband and high gain low-profile antenna with metasurface" 2018 IEEE International Symposium on Antennas and Propagation and USNC-URSI Radio Science Meeting (AP-S/URSI 2018), Boston, MA, USA, July 8-13, 2018.

    Yu Yi, Feng Liang*, Zhen Zhong Yang, and Bing-Zhong Wang, "A novel method for extracting equivalent circuit parameters of circular patch and ring frequency selective surfaces,"  2018 Intercnational Conference on Microwave and Millimeter Wave Technology(ICMMT 2018), Chengdu, China, May 6-9, 2018.

    Feng Liang*, George W. Hanson, Giampiero Lovat, Rodolfo Araneo, Paolo Burghignoli, and Alexander B. Yakovlev, “Homogenized dyadic Green's functions for electric dipole excitation over metasurfaces,” 2015 IEEE International Symposium on Antennas and Propagation and North American Radio Science Meeting (AP-S/URSI 2015), Vancouver, BC, Canada, July 19-24, 2015.

    Aobo Chen, Feng Liang, Gaofeng Wang*, and Bing-Zhong Wang, “Modeling annular through-silicon via pairs in 3-D integration,” 2015 IEEE MTT-S International Microwave Symposium (IMS 2015), Phoenix, AZ, USA, May 17-22, 2015.

    Feng Liang*, Si-Qi Zhao, Aobo Chen, and Gaofeng Wang, “Three-dimensional on-chip inductor design based on through-silicon vias,” 2013 IEEE International Conference on ASIC, Shenzhen, China, October 28-31, 2013.

    Feng Liang*, Hai Lin, and Gaofeng Wang, “Prediction of crosstalk effects in future multiwall carbon nanotube (MWCNT) interconnects,” The 9th International Symposium on Antennas, Propagation, and EM Theory (ISAPE 2010), Guangzhou, China, Nov. 29 - Dec. 2, 2010.

    Feng Liang* and Gaofeng Wang, “Study of Mur’s and UPML absorbing boundary condition for the LOD-FDTD method,” 2008 International Conference on Microwave and Millimeter Wave Technology (ICMMT2008), Nanjing, China, April 21-24, 2008.


  • 授权发明专利

    1. [1] 梁锋刘子冰,汪相如,赵德双,王秉中一种修正参考波模型的液晶全息相控阵天线波束综合方法,国家发明专利,ZL202110997187.7,授权日2024.05.14

    2. [2] 梁锋,韩建飞,赵德双. 一种基于人工表面等离激元的双波段隔离器,国家发明专利,ZL202210739015.4,授权日2024.04.26 (电子科技大学长三角研究院(湖州))

    3. [3] 梁锋,韩建飞,王秉中一种基于拓扑谷边界态的高效电磁波导,国家发明专利,ZL202310261802.7,授权日2024.04.12

    4. [4] 贺晓娴,汪相如,赵玉林,梁锋基于液晶材料的能谷光子晶体结构及光子晶体波导结构,国家发明专利,ZL202210854230.9,授权日2024.02.09

    5. [5] 汪相如,王一梵,张梦雪,梁锋一种液晶微波相控阵天线动态增益的优化方法国家发明专利,ZL202010488088.1, 授权日2023.04.18

    6. [6] 梁锋,刘嘉乐,汪相如,赵德双,王秉中一种基于液晶的Ka波段二维波束扫描反射阵天线,国家发明专利,ZL202210645256.2,授权日2023.03.07

    7. [7] 韩建飞,梁锋,赵德双,王秉中一种基于人工表面等离激元的非互易耦合器,国家发明专利,ZL202111233327.X,授权日2022.05.03

    8.  [8] 汪相如,王一梵,贺晓娴,梁锋.一种基于双稳态液晶的可编码天线移相单元,国家发明专利,ZL202011122627.6,授权日2021.12.21

    9. [9] 梁锋,易宇,杨振中基于神经网络的多层频率选择表面吸波材料建模优化方法,国家发明专利,ZL201711443669.8,授权日2021.08.06


    申请发明专利

    1. [1] 梁锋,伍春笛,汪相如,王秉中一种基于液晶的圆极化介质谐振器二维波束扫描相控阵天线,国家发明专利,申请号202411583024.4,申请日期2024.11.07

    2. [2] 梁锋,伍春笛,高鹏程. 一种基于混合板材的液晶相控阵天线,国家发明专利,申请号202410548672.X,申请日期2024.05.06

    3. [3] 梁锋甘玲,汪相如一种低液晶盒厚的快速响应液晶移相器,国家发明专利,申请号202410407175.8,申请日期2024.04.07

    4. [4] 刘嘉乐,梁锋,汪相如,王秉中一种基于液晶的Ka波段二维波束扫描折叠反射阵天线,国家发明专利,申请号202410059675.7,申请日期2024.01.16

    5.  [5] 梁锋,韩建飞,赵德双. 一种可调的拓扑谷锁定波导、开关、信号传输方法,国家发明专利,申请号202311534574.2,申请日2023.11.17 (电子科技大学长三角研究院(湖州))

    6. [6] 梁锋,梁永光,甘玲,赵德双一种加载集总元件的快速响应电调液晶移相器,申请号202310976564.8,申请日2023.08.04 (电子科技大学长三角研究院(湖州))

    7.  [7] 梁锋,梁永光,赵德双,汪相如. 一种基于液晶全息相控阵天线的毫米波自适应无线输能系统及方法,申请号202310713848.8,申请日2023.06.16

    8. [8] 梁锋,韩建飞,赵德双. 一种基于手性边界态的基片集成拓扑波导,国家发明专利,申请号202310635664.4,申请日2023.06.01 (电子科技大学长三角研究院(湖州))

    9.  [9] 梁锋,梁书大,赵德双一种基于液晶的低剖面透射相控阵天线,申请号202310476196.0,申请日2023.04.28 (电子科技大学长三角研究院(湖州))

    10. [10] 梁锋,韩建飞,赵玉林,赵德双,王秉中. 一种基于拓扑手性边界态的高效电磁波导,国家发明专利,申请号202211105309.8,申请日2022.09.09

  • 仅列纵向项目


    在研项目

    (1) 202325237液晶阵列天线材料与器件关键技术研发,深圳市科技重大专项,No. KJZD20230923114409020,研究期限:20241-202512月,课题负责人;


    (2) 基于液晶的多比特可重构智能超表面天线基础理论与关键技术,国家自然科学基金面上项目,No. 62171082,研究期限:20221-202512月,主持

     

    已结题项目

    (1) “基于液晶的毫米波智能可重构相控阵天线研究,四川省自然科学基金面上项目,No. 2022NSFSC0483,研究期限:20221-202312月,主持;


    (2) 天基信息网络服务系统关键技术与验证, 广东省重点领域研发计划重大科技专项,No. 2019B010158001,研究期限:201910-202312月,课题主研(排名第2);


    (3) “液晶全息相控阵天线技术研究”, 国家级重点实验室基金,研究期限:20217-20236月,主持;


    (4) “超宽角度范围波束扫描平面相控阵天线基础理论与关键技术研究,国家自然科学基金重点项目,No. 61731005,研究期限:20181-202212月,主研(排名第5); 


    (5) “可重构全息超表面天线,四川省科技计划重点研发项目,No. 2018GZ0526研究期限:20186-20206月,主研(排名第2);


    (6) “基于电磁超表面的辐射特性可调控的天线理论与设计,中央高校基本科研业务费,No. ZYGX2016J057,研究期限:20171-201812月,主持;


    (7) “高密度三维集成电路中硅通孔引起的电磁干扰特性研究,中国博士后科学基金面上资助项目,No. 2014M552335研究期限:20144-201512月,主持;


    (8) “基于碳纳米管的三维集成电路硅通孔互连线的建模与仿真,国家自然科学基金青年基金项目,No. 61204041, 研究期限:20131-201512月,主持;


    (9) “时间反演电磁波探测与成像中的高效电磁仿真算法研究,中央高校基本科研业务费,No. ZYGX2013J049, 研究期限:20141-201512月,主持


  • 实验条件


    矢量网络分析仪(10 MHz-67 GHz)、近场暗室(8-40 GHz)、远场暗室(0.7-40 GHz)、高性能服务器(36核CPU, 512 GB内存,20 TB硬盘)、实时频谱分析仪(频率范围9 KHz-14 GHz,实时带宽110 MHz)




    科研工具(推荐)


    How to write a paper with Latex

    Latex is highly recommended for papers submitted to international conferences and journals. 

     

    For   Starters – How to write a paper with Latex

    Software Installation

     

    To Start With…

    • Start with a template (see below for more ACM/IEEE        templates)

    • Familiarize yourself with the following essential        structures

      • Title: \title, \author, \thanks

      • Section: \section, \subsection, \subsubsection         …

      • Lists: \begin{enumerate} \item … \item …         \end{enumerate}; or use itemize instead of enumberate.

      • Figures & Tables: \begin{figure[*]) …\end{figure[*]},         \begin{table[*]) …\end{table[*]}, etc. (Use * to spread the figure across         two columns)

      • Include EPS figures: \includegraphics{}, \epsfig{}, etc. (see below         for how to create an EPS figure)

      • Labels: use \label to label ALL section         headings, figures, and tables, and use \ref for ALL         cross-references.

      • Bibliography: BibTex is recommended. All bibliography         entries could be compiled in a separate file such that it could be used         for multiple papers.

      Frequently Used Templates

     
     

    Useful Tips

    • How to convert Word (.doc) documents to Latex:

      • wsW2LTX developed by Ingo H.         de Boer and distributed by CTAN.org.

    • How to convert OLE (Visio, Excel, PowerPoint…)        figures to EPS

      • I recommend the OLETeX Utility.

      • You can always use a PS printer (e.g., HP         ColorJet 5 PS) to print any document into a .ps file, then open it         using GSview to convert it to .eps (don't forget to calculate the         bounding box!!).

    • Hyphenation

      • To avoid frequent broken words, use \hyphenpenalty,         and \tolerance. For example:

        • \hyphenpenalty=5000
                   \tolerance=1000

      • To avoid incorrect hyphenation for a particular         word, use \hyphenation. For example:

        • \hyphenation{op-tical net-works semi-conduc-tor}

     
     

    Additional Reading Materials